The 2G2 Antibody Recognizes an Acidic 110-kDa Human Mitochondrial Protein

Using fluorescence microscopy, the mouse monoclonal antibody 2G2 was found to label mitochondria in human cells, as assessed by double staining with either Rhodamine 123 or a polyclonal antibody to mitochondrial matrix HSP-60 proteins. No reactivity to the 2G2 antibody was detected in cells from mouse, rat and chicken. Immunoblotting analysis demonstrated that the 2G2 antigen corresponds to a human protein with a relative mobility of 110 kDa and an approximate isoelectric point of 6.5 that co-partitions with HSP-60 proteins during isolation of mitochondria from HeLa cells. Close examination of the 2G2 staining pattern in HeLa and Fanconi's anaemia cells revealed differences in the morphology and organization of mitochondria in these two cell types. In HeLa cells, mitochondria appear as individual tubular compartments of variable length and are closely associated with vimentin filaments, particularly at the periphery of the nucleus. In Fanconi's anaemia cells, mitochondria have a filamentous shape and form an interconnected cytoplasmic reticulum running in parallel with both vimentin filaments and microtubules. After stabilization with aldehyde- or alcohol-based fixation protocols that optimize the preservation of cytoskeletal components, the epitope targeted by the 2G2 antibody may serve as a valuable marker in the investigation of relationships between mitochondria and other cellular structures in human cells.